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Main Authors: Nguyen, Quoc Chuong, Le, Trung Kien
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2401.03917
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author Nguyen, Quoc Chuong
Le, Trung Kien
author_facet Nguyen, Quoc Chuong
Le, Trung Kien
contents Hypergraphs, or generalization of graphs such that edges can contain more than two nodes, have become increasingly prominent in understanding complex network analysis. Unlike graphs, hypergraphs have relatively few supporting platforms, and such dearth presents a barrier to more widespread adaptation of hypergraph computational toolboxes that could enable further research in several areas. Here, we introduce HyperRD, a Python package for hypergraph computation, simulation, and interoperability with other powerful Python packages in graph and hypergraph research. Then, we will introduce two models on hypergraph, the general Schelling's model and the SIR model, and simulate them with HyperRD.
format Preprint
id arxiv_https___arxiv_org_abs_2401_03917
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Toward a comprehensive simulation framework for hypergraphs: a Python-base approach
Nguyen, Quoc Chuong
Le, Trung Kien
Mathematical Software
Hypergraphs, or generalization of graphs such that edges can contain more than two nodes, have become increasingly prominent in understanding complex network analysis. Unlike graphs, hypergraphs have relatively few supporting platforms, and such dearth presents a barrier to more widespread adaptation of hypergraph computational toolboxes that could enable further research in several areas. Here, we introduce HyperRD, a Python package for hypergraph computation, simulation, and interoperability with other powerful Python packages in graph and hypergraph research. Then, we will introduce two models on hypergraph, the general Schelling's model and the SIR model, and simulate them with HyperRD.
title Toward a comprehensive simulation framework for hypergraphs: a Python-base approach
topic Mathematical Software
url https://arxiv.org/abs/2401.03917